The NS4 board achieves cross-connection at the electrical layer, and to provide OTN interfaces and ESC.
For detailed functions and features, refer to Table 1 and Table 2.
Function and feature | Description | ||||||
---|---|---|---|---|---|---|---|
Basic function | NS4 converts signals as follows: 80xODU0/80xODUflex/40xODU1/10xODU2/10xODU2e/2xODU3/1xODU4<->1xOTU4 Supports mixed transmission of ODU0, ODU1, ODUflex, ODU2, ODU2e, and ODU3 signals. | ||||||
Cross-connect capabilities | Supports the cross-connection of 80 channels of ODU0/ODUflex signals or 40 channels of ODU1 signals or ten channels of ODU2/ODU2e signals or two channels of ODU3 signals or one channel of ODU4 signals between the NS4 and the cross-connect board. | ||||||
OTN function |
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WDM specification | Supports ITU-T G.694.1-compliant DWDM specifications. | ||||||
Tunable wavelength function | The board can tune the optical signal output on the WDM side within the range of 80 wavelengths in C-band with the channel spacing of 50 GHz. | ||||||
ESC function | Supported | ||||||
PRBS function | Supports the PRBS function on the WDM side. | ||||||
LPT function | Not supported | ||||||
FEC coding | TN54NS4: Supports HFEC and SDFEC on the WDM side. TN56NS4: Supports SDFEC on the WDM side. TN57NS4: Supports HFEC and SDFEC2 on the WDM side. TN58NS4: Supports SDFEC2 on the WDM side. NOTE: Boards that use different FEC modes cannot interconnect with each other. | ||||||
Alarms and performance events monitoring |
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Regeneration board | The WDM-side signals from an NS4 board can be regenerated by another NS4 board or an LTX board of the same type. For example,
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ALS function | Not supported | ||||||
Latency measurement |
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Test frame | Not supported | ||||||
IEEE 1588v2 | Not supported | ||||||
Physical clock | Not supported | ||||||
Optical-layer ASON | Supported | ||||||
Electrical-layer ASON | Supported | ||||||
Protection scheme |
NOTE: When the cross-connect granularity is ODUflex, the board does not support tributary SNCP protection and ODUk SPRing protection. | ||||||
Loopback | WDM side Loopback | ODU0 Channel Loopback | ODU1 Channel Loopback | ODU2 Channel Loopback | ODU3 Channel Loopback | ODUflex Channel Loopback | |
Supported | Supported | Supported | Supported | Supported | Supported | ||
Protocols or standards compliance | Protocols or standards for transparent transmission (non-performance monitoring) | IEEE 802.3u IEEE 802.3z IEEE 802.3ae IEEE 802.3ba ITU-T G.707 ITU-T G.782 ITU-T G.783 GR-253-CORE Synchronous Optical Network (SONET) Transport Systems: Common Generic NCITS FIBRE CHANNEL PHYSICAL INTERFACES (FC-PI) NCITS FIBRE CHANNEL LINK SERVICES (FC-LS) NCITS FIBRE CHANNEL FRAMING AND SIGNALING-2 (FC-FS-2) NCITS FIBRE CHANNEL BACKBONE-3 (FC-BB-3) NCITS FIBRE CHANNEL SWITCH FABRIC-3 (FC-SW-3) NCITS FIBRE CHANNEL - PHYSICAL AND SIGNALING INTERFACE (FC-PH) NCITS FIBRE CHANNEL SINGLE-BYTE COMMAND CODE SETS-2 MAPPING PROTOCOL (FC-SB-2) SMPTE 292M Bit-Serial Digital Interface for High-Definition Television Systems ETSI TR 101 891 Professional Interfaces: Guidelines for the implementation and usage of the DVB Asynchronous Serial Interface (ASI) SMPTE 259M 10-Bit 4:2:2 Component and 4fsc Composite Digital Signals - Serial Digital Interface SMPTE 297-2006 Serial Digital Fiber Transmission System for SMPTE 259M, SMPTE 344M, SMPTE 292 and SMPTE 424M Signals NCITS SBCON Single-Byte Command Code Sets CONnection architecture (SBCON) ANSI X3.139 Information Systems - Fiber Distributed Data Interface (FDDI) - Token Ring Media Access Control (MAC) ANSI X3.148 Information Systems - Fiber Distributed Data Interface (FDDI) - Token Ring Physical Layer Protocol (PHY) ANSI X3.166 Information Systems - Fiber Distributed Data Interface (FDDI) Physical Layer Medium Dependent (PDM) | |||||
Protocols or standards for service processing (performance monitoring) | ITU-T G.805 ITU-T G.806 ITU-T G.709 ITU-T G.872 ITU-T G.7710 ITU-T G.798 ITU-T G.874 ITU-T M.3100 ITU-T G.874.1 ITU-T G.875 ITU-T G.808.1 ITU-T G.841 ITU-T G.8201 ITU-T G.873.1 ITU-T G.694.1 |
Function and feature | Description | ||
---|---|---|---|
Basic function | The board is used in an electrical REG station in the system to implement electrical regeneration of optical signals. | ||
Regenerating rate | OTU4: OTN service at a rate of 111.81 Gbit/s | ||
OTN function |
| ||
WDM specification | Supports ITU-T G.694.1-compliant DWDM specifications. | ||
Tunable wavelength function | The board can tune the optical signal output on the WDM side within the range of 80 wavelengths in C-band with the channel spacing of 50 GHz. | ||
ESC function | Supported | ||
PRBS function | Not supported | ||
FEC coding | TN54NS4: Supports HFEC and SDFEC on the WDM side. TN56NS4: Supports SDFEC on the WDM side. TN57NS4: Supports HFEC and SDFEC2 on the WDM side. TN58NS4: Supports SDFEC2 on the WDM side.NOTE: Boards that use different FEC modes cannot interconnect with each other. | ||
Alarms and performance events monitoring |
| ||
ALS function | Not supported | ||
Test frame | Not supported | ||
IEEE 1588v2 | Not supported | ||
Physical clock | Not supported | ||
Optical-layer ASON | Supported | ||
Electrical-layer ASON | Not supported | ||
Protection scheme | Not supported | ||
Protocols or standards compliance | Protocols or standards for transparent transmission (non-performance monitoring) | - | |
Protocols or standards for service processing (performance monitoring) | ITU-T G.805 ITU-T G.806 ITU-T G.709 ITU-T G.872 ITU-T G.7710 ITU-T G.798 ITU-T G.874 ITU-T M.3100 ITU-T G.874.1 ITU-T G.875 ITU-T G.808.1 ITU-T G.841 ITU-T G.8201 ITU-T G.694.1 |
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